Project description:Triple-negative breast cancer (TNBC) is a heterogeneous subtype with varying disease outcomes. Tumor infiltrating lymphocytes (TILs) are frequent in TNBC and have been shown to correlate with outcome, suggesting an immunogenic component in this subtype. However, other factors, intrinsic to the cancer cells, may also influence outcome. To identify proteins and molecular pathways associated with recurrence in TNBC, 34 formalin-fixed paraffin-embedded (FFPE) primary TNBC tumors were investigated by global proteomic profiling using TMT-HILIC-LC-MS/MS. Approximately half of the patients were lymph node-negative and remained free of local or distant metastasis within 10 years follow-up, while the other half developed distant metastasis. Proteomic profiling identified >4000 proteins, of which 63 exhibited altered expression in primary tumors of recurrence versus recurrence-free patients. Importantly, down-regulation of proteins in the major histocompatibility complex (MHC) class I antigen presentation pathways were enriched, including TAP1, TAP2, CALR, HLA-A, ERAP1 and TAPBP, and were associated with significantly shorter recurrence-free and overall survival. In addition, proteins involved in cancer cell proliferation and growth, including GBP1, RAD23B, WARS and STAT1, also exhibited altered expression in primary tumors of recurrence versus recurrence-free patients. The association between the antigen-presentation pathway and outcome were validated in a second sample set of 10 primary TNBC tumors and corresponding metastases using proteomics and in a large public gene expression database of 249 TNBC and 580 basal-like breast cancer cases. Our study demonstrates that down-regulation of antigen presentation is a key mechanism for TNBC cells to avoid immune surveillance, allowing continued growth and spread.
Project description:To develop and validate novel multigene signatures to facilitate individualized treatment of TNBC patients By integrating expression profiles of messenger RNAs (mRNAs) and long non-coding RNAs (lncRNAs). We analysed 165 TNBC samples and 33 paired normal breast tissues using transcriptome microarrays. Tumor-specific mRNAs and lncRNAs were identified and correlated with patientsâ?? recurrence-free survival (RFS). Using Cox regression model, we built two multigene signatures incorporating mRNAs and lncRNAs. The prognostic and predictive accuracy of the signatures were tested in a training set of 165 TNBC patients and validated in another 101 TNBC patients.
Project description:We reported the distinc expression pattern of TNBC-CSC-related microRNAs, which might be potential biomarkers and targeted therapy for TNBC.
Project description:This SuperSeries is composed of the following subset Series: GSE26022: [Gene Expression Training Set] Protein-coding and MicroRNA Biomarkers of Recurrence of Prostate Cancer Following Radical Prostatectomy GSE26242: [Gene Expression Validation Set] Protein-coding and MicroRNA Biomarkers of Recurrence of Prostate Cancer Following Radical Prostatectomy GSE26245: [miRNA Training Set] Protein-coding and MicroRNA Biomarkers of Recurrence of Prostate Cancer Following Radical Prostatectomy GSE26247: [miRNA Validation Set] Protein-coding and MicroRNA Biomarkers of Recurrence of Prostate Cancer Following Radical Prostatectomy Refer to individual Series
Project description:To find metastatic recurrence biomarkers of triple negative breast cancer (TNBC) treated by neoadjuvant chemotherapy and anti-EGFR antibodies (NAT), we evaluated tumor genomic, transcriptomic and immune features, using MSK-IMPACT assay, gene arrays, Nanostring technology and TIL assessment on H&E. Six patients experienced a rapid fatal recurrence (RR) and other 6 had later non-fatal recurrences (LR). Before NAT, RR had low expression of 6 MHC class I and 13 MHC class II genes but were enriched in upregulated genes involved in the cell cycle-related pathways. Their TIL number before NAT in RR was very low (<5%) and did not increase after treatment. In post-NAT residual tumors, RR cases showed high expression of SOX2 and CXCR4. Our results indicate that high expression of cell cycle genes, combined with cold immunological phenotype, may predict strong TNBC resistance to NAT and rapid progression after it. This biomarker combination is worth validation in larger studies.
Project description:To find metastatic recurrence biomarkers of triple negative breast cancer (TNBC) treated by neoadjuvant chemotherapy and anti-EGFR antibodies (NAT), we evaluated tumor genomic, transcriptomic and immune features, using MSK-IMPACT assay, gene arrays, Nanostring technology and TIL assessment on H&E. Six patients experienced a rapid fatal recurrence (RR) and other 6 had later non-fatal recurrences (LR). Before NAT, RR had low expression of 6 MHC class I and 13 MHC class II genes but were enriched in upregulated genes involved in the cell cycle-related pathways. Their TIL number before NAT in RR was very low (<5%) and did not increase after treatment. In post-NAT residual tumors, RR cases showed high expression of SOX2 and CXCR4. Our results indicate that high expression of cell cycle genes, combined with cold immunological phenotype, may predict strong TNBC resistance to NAT and rapid progression after it. This biomarker combination is worth validation in larger studies.
Project description:Triple-negative breast cancer (TNBC) is malignant cancer with a high risk of recurrence. To date, the underlying 3D chromatin organizations of TNBC have remained unclear. Here, using in situ Hi-C, we characterized the 3D chromatin organizations in cells representing five distinct subtypes of breast cancer (including TNBC) and TNBC tissues, compared to normal cells/tissues. We found that the global and local 3D architectures are severely disrupted in TNBC cells. Importantly, we detected CTCF-dependent TNBC-susceptible loss/gain of 3D chromatin organizations and found that these changes were strongly associated with perturbed chromatin accessibility and transcriptional dysregulations. Although some discrepancies exist between TNBC cell lines and tissues, we observed that perturbed local 3D architectures found in TNBC cells are partially conserved in TNBC tissues. Furthermore, we discovered distinct tissue-specific chromatin loops by comparing normal and TNBC tissues. Collectively, our findings provide important features of 3D chromatin organization in TNBC.
Project description:Triple-negative breast cancer (TNBC) is malignant cancer with a high risk of recurrence. To date, the underlying 3D chromatin organizations of TNBC have remained unclear. Here, using in situ Hi-C, we characterized the 3D chromatin organizations in cells representing five distinct subtypes of breast cancer (including TNBC) and TNBC tissues, compared to normal cells/tissues. We found that the global and local 3D architectures are severely disrupted in TNBC cells. Importantly, we detected CTCF-dependent TNBC-susceptible loss/gain of 3D chromatin organizations and found that these changes were strongly associated with perturbed chromatin accessibility and transcriptional dysregulations. Although some discrepancies exist between TNBC cell lines and tissues, we observed that perturbed local 3D architectures found in TNBC cells are partially conserved in TNBC tissues. Furthermore, we discovered distinct tissue-specific chromatin loops by comparing normal and TNBC tissues. Collectively, our findings provide important features of 3D chromatin organization in TNBC.
Project description:Triple-negative breast cancer (TNBC) is malignant cancer with a high risk of recurrence. To date, the underlying 3D chromatin organizations of TNBC have remained unclear. Here, using in situ Hi-C, we characterized the 3D chromatin organizations in cells representing five distinct subtypes of breast cancer (including TNBC) and TNBC tissues, compared to normal cells/tissues. We found that the global and local 3D architectures are severely disrupted in TNBC cells. Importantly, we detected CTCF-dependent TNBC-susceptible loss/gain of 3D chromatin organizations and found that these changes were strongly associated with perturbed chromatin accessibility and transcriptional dysregulations. Although some discrepancies exist between TNBC cell lines and tissues, we observed that perturbed local 3D architectures found in TNBC cells are partially conserved in TNBC tissues. Furthermore, we discovered distinct tissue-specific chromatin loops by comparing normal and TNBC tissues. Collectively, our findings provide important features of 3D chromatin organization in TNBC.
Project description:Triple-negative breast cancer (TNBC) is an aggressive subtype with few treatment options for chemo-resistant disease. In both preclinical models and patient circulating tumor cells, androgen receptor (AR) expression is increased in anchorage independent TNBC. The AR inhibitor enzalutamide (Enza) leads to reduced TNBC growth in soft agar, invasion, mammosphere formation in vitro, and reduced tumorigenicity and recurrence when combined with chemotherapy in vivo pre-clinical models. Transforming growth factor β (TGFβ) pathway gene signatures are also increased during TNBC anchorage independent survival both in vitro and in vivo in pre-clinical models and CTC from patients during relapse while on chemotherapy. We hypothesized that a positive loop between AR and TGFβ signaling facilitates TNBC anchorage independent survival (anoikis resistance). We previously published that AR protein levels and transcriptional activity increased during anchorage independent conditions and we now find that that multiple components of the TGFβ pathway, including TGFβ1 and 3, as well as pathway activity, as measured by nuclear localization and transcriptional activity of pSmad3, are enhanced in anchorage independent conditions. Indeed, exogenous TGFβ increased AR protein and TGFβ inhibition decreased AR and TNBC viability, particularly under anchorage independent culture conditions. ChIP-Seq experiments revealed AR binding to genomic regions near the TGFB1 and SMAD3. TGFB3 and AR expression were positively correlated in clinical datasets and high levels of co-expression correspond to significantly worse recurrence-free and overall survival in both ER- and basal-like breast cancer. Finally, combining Enza with a TGFβ inhibitor decreased cell survival more than either drug alone, particularly under anchorage independent conditions, where the effect was more than additive. These findings warrant further investigations into whether combined inhibition of AR and TGFβ pathways might decrease metastatic recurrence rates and mortality from TNBC.